1) axial leakage
轴向泄漏
1.
According to the structure and principles of the gear motor,and based on fluid dynamics theory,the radial leakage and axial leakage flow rate of a gear motor were derived,and a calculation example was given for the gear motor used in the roof bolter.
根据齿轮式气动马达的结构和工作原理,按照流体力学方法推导了气动齿轮马达的径向泄漏耗气量和轴向泄漏耗气量,对一种锚杆钻机使用的气动齿轮马达进行了泄漏量计算。
2.
According to the structure and principles of the gear motor, and based on fluid dynamics theory, the theoretic flow rate and the radial leakage and the axial leakage flow rate was derived, and a calculation example was given for the gear motor used in the roof bolter , and an experiment was performed that proved the method.
根据气动齿轮马达的结构和工作原理,按照流体力学方法计算了气动齿轮马达的理论耗气量、并计算了齿轮马达径向泄漏的耗气量和轴向泄漏的耗气量。
3.
According to the structure and principles of the Roots supercharger and based on fluid dynamics theory,the radial leakage,axial leakage and breather hole leakage,the leakage model of Roots supercharger was established.
根据罗茨式机械增压器的结构和工作原理,按照流体力学的方法,推导罗茨增压器径向泄漏量、轴向泄漏量和通气孔泄漏量,建立泄漏的数学模型。
2) vertical leakage
垂向泄漏
3) radial leakage
径向泄漏
1.
According to the structure and principles of the gear motor,and based on fluid dynamics theory,the radial leakage and axial leakage flow rate of a gear motor were derived,and a calculation example was given for the gear motor used in the roof bolter.
根据齿轮式气动马达的结构和工作原理,按照流体力学方法推导了气动齿轮马达的径向泄漏耗气量和轴向泄漏耗气量,对一种锚杆钻机使用的气动齿轮马达进行了泄漏量计算。
2.
According to the structure and principles of the gear motor, and based on fluid dynamics theory, the theoretic flow rate and the radial leakage and the axial leakage flow rate was derived, and a calculation example was given for the gear motor used in the roof bolter , and an experiment was performed that proved the method.
根据气动齿轮马达的结构和工作原理,按照流体力学方法计算了气动齿轮马达的理论耗气量、并计算了齿轮马达径向泄漏的耗气量和轴向泄漏的耗气量。
3.
According to the structure and principles of the Roots supercharger and based on fluid dynamics theory,the radial leakage,axial leakage and breather hole leakage,the leakage model of Roots supercharger was established.
根据罗茨式机械增压器的结构和工作原理,按照流体力学的方法,推导罗茨增压器径向泄漏量、轴向泄漏量和通气孔泄漏量,建立泄漏的数学模型。
4) transverse-leakage
横向泄漏
1.
A second-order expansion of transverse-leakage was achieved when the spatial distribution of neutron flux was .
使用坐标变换将任意三角形变换为正三角形,源项和通量的空间分布使用二次正交多项式展开,横向泄漏项的空间二次分布通过使用二元二次多项式近似正三角形节块的通量分布来获得。
5) One-way-leaker
单向泄漏
6) outward leakage
向外泄漏
补充资料:单轴各向异性
单轴各向异性是磁晶各向异性的最简单形式,即自发磁化的稳定方向(或易磁化方向)平行于一特殊晶轴。如六方晶系钴的自发磁化方向平行于 C轴(见晶体结构),这就表现出强的单轴各向异性。磁性材料的单轴各向异性值一般都低于其磁晶各向异性值,为103erg/cm3量级。磁性材料经磁场热处理或强的冷加工而产生的感生各向异性,都属于单轴各向异性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条